Scenario generation program

ABSTRACT

Disclosed is a scenario generation program that is used to generate a scenario given to a plurality of virtual web clients each of which applies access load to a web server device of a test target. According to the program, a computer stores some first request messages transmitted to a web server device and some second request messages transmitted to the web server device based on the same operation. The computer extracts the differences between the request parameters in the first and second request messages in the same order of the same operation. If page data of a response message includes the extracted request parameters, rewriting-item information is generated corresponding to the request parameter and is incorporated into the scenario. The computer replace the parameter shown by the rewriting-item information whenever the computer executes the scenario.

BACKGROUND OF THE INVENTION

The present invention relates to a scenario generation program forgenerating a scenario used in a load simulator.

A web load testing apparatus includes a load simulator and a viewer toobserve a state of a web server device as a test target while applying aload thereto. The load simulator generates a plurality of threads thatfunction as virtual web clients; gives scenarios, each of which definesthe request order for page data in the web server device as a testtarget, to the generated virtual web clients; and makes the clientstransmit request messages and receive response messages as defined inthe scenario. Thereby, the load simulator saves the response messagesthat are received by the virtual web clients from the web server device,and records a log of the responses. The viewer displays a web page basedon the page data in the response messages, or displays a list of the loginformation about the responses.

The scenario mentioned above is generated based on request history ofweb pages displayed in order by actually accessing the web server deviceof the test target before a web load test. Specifically, a scenario isdata that defines some request messages and the transmission orderthereof. Some request messages contained in a scenario include argumentsthat should be passed to the web server device by a get method or a postmethod.

However, these arguments may be inappropriate when applying access loadto a web server device even if they are appropriate when generating ascenario. For example, in a case where the argument is time information,even if the time information is passed to the web server device whenapplying access load, the virtual web client may not receive anappropriate response message when the web server device determines thata timeout occurs.

The following publications indicate a pertinent art.

International publication WO 01/035222 discloses a system and method forreplaying a predefined path through the internet. The method includesselecting a saved request associated with a saved URL from a requesthistory. If the saved request is a form request, the method candetermine a best-fit form from the originating web page for which areplay request can be made. Alternatively, if the request is not a formrequest, the method selects a best-fit URL on the originating web pagefor which a replay request can be made. After a best-fit form or abest-fit URL is selected as a target URL, the method makes a replayrequest to the target URL.

Japanese-unexamined patent publication JP2005-250945A discloses a webapplication inspection device that inspects a security hole in a webapplication. An inspection means of the inspection device generates aninspection request that includes input parameters described by macro tobe used for input to a web application.

When an inspection request is transmitted to a Web server of a testtarget, a macro execution means executes a macro and replaces inputparameters by predetermined values. A web accessing means transmits theinspection request described by macro to a web server to inspect anapplication on the web server.

SUMMARY OF THE INVENTION

An object of the present invention is to provide a program forgenerating a scenario that makes a virtual web client transmit a requestmessage and receive a response message appropriately when applyingaccess load on a web server device of a test target.

A scenario generation program of a present invention is used to generatea scenario given to a plurality of virtual web clients each of whichapplies access load to a web server device of a test target. The programmakes a computer function as means including: a first memory means forstoring some first request messages that are transmitted to a web serverdevice in order based on a predetermined operation and some responsemessages that are received in order, into storage; a second memory meansfor storing some second request messages transmitted to the web serverdevice in order based on the same operation as the above; an extractionmeans for extracting the differences between the request parameters inthe first and second request messages that are stored in the storage bythe first and second memory means in the same order of the sameoperation; a retrieval means for retrieving a response message whosepage data includes the request parameters that are extracted by theextraction means as different parts from data in the storage; aninformation generation means for generating rewriting-item informationwhen the retrieval means retrieves the response message, wherein therewriting-item information shows that the request parameters extractedby the extraction means as different parts are necessary to be rewrittenwhen applying access load; and an output means for outputting a scenariothat includes all the first request messages in the storage and therewriting-item information that is generated by the informationgeneration means.

With the above program, the first request messages, which aretransmitted to the web server device based on the predeterminedoperation, are stored, and the second request messages, which aretransmitted to the web server device based on the same operation, arealso stored. Regarding the first and second request messages of the sameorder in the operation, if there are request messages whose requestparameters are different to each other and the request parameters areincluded in the response message that is acquired before the requestmessages are transmitted, it is judged that the request parameters inthe request messages should be rewritten appropriately every time thevirtual web client executes the scenario in an access load test, andsuch information is incorporated into the scenario as the rewriting-iteminformation. Therefore, the virtual web client can appropriately changethe request parameters that should be changed appropriately using therewriting-item information incorporated in the scenario when executingaccess load test.

According to the present invention, a scenario, which makes a virtualweb client transmit a request message and receive a response messageappropriately when applying access load on a web server device of a testtarget, can be generated.

DESCRIPTION OF THE ACCOMPANYING DRAWINGS

FIG. 1 is a block diagram showing a web server device that is a targetof the web load test and a web load testing apparatus that executes thetest according to an embodiment of the present invention,

FIG. 2 is a flow chart showing a process executed by a CPU in accordancewith a scenario generation module,

FIG. 3 shows an example of data structure of a comparison table,

FIG. 4 shows an example of request parameters of the first and secondprovisional scenarios, and

FIG. 5 shows an example of page data containing the request parameter ofFIG. 4.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

There will now be described an embodiment of the present invention withreference to the accompanying drawings.

FIG. 1 is a block diagram showing a web server device 10 that is atarget of a web load test and a web load testing apparatus 20 thatexecutes the test according to the embodiment of the present invention.

The web server device 10 is a general purpose computer in which programsfor implementing a web server function are installed. The computer thatconstitutes the web server device 10 contains hardware, such as a CPU(Central Processing Unit) 10 a, a DRAM (Dynamic Random Access Memory) 10b, a communication adapter 10 c, and storage 10 d.

The basic software 11, which provides fundamental functions to manypieces of application software, is installed in the storage 10 d. Forexample, the fundamental functions include management of input/outputdata via the communication adapter 10 c, management of memory areas ofthe DRAM 10 b and the storage 10 d, and the like.

The storage 10 d also stores a web server program 12 and page data 13that makes a general purpose computer operate as a web server device.Receiving a request from a web client device (not shown), the web serverprogram 12 reads a requested page data from the inner storage orgenerates a requested page data, and transmits it to the web clientdevice as a source of request through the communication adapter 10 c.The page data 13 is HTML (Hyper Text Markup Language) source data fordisplaying a web page. This page data 13 may include the informationthat displays a link for jumping to another web page.

The web load testing apparatus 20 is a device for executing a web loadtest for the web server device 10 of a test target. This web loadtesting apparatus 20 is a general personal computer in which the programfor implementing a web load test tool function has been installed. Thepersonal computer that constitutes the web load testing apparatus 20 isprovided with a display 20 a such as a liquid crystal display, inputdevices 20 b such as a keyboard and a mouse, and a main unit that isconnected to these devices 20 a and 20 b. The main unit containshardware such as a communication adapter 20 c, a CPU 20 d, a DRAM 20 eand storage 20 f. The storage 20 f stores basic software 21.

The web load testing apparatus 20 stores a web load test tool (program)22 that makes a personal computer operate as the web load testingapparatus. The web load test tool 22 includes modular programs(components) of a load simulator 22 a, a viewer 22 b and a scenariogeneration module 22 c.

The load simulator 22 a applies access load onto the web server deviceof a test target. Specifically, the load simulator 22 a generates aplurality of threads that function as virtual web clients. Then the loadsimulator 22 a gives a scenario, which defines request order of pagedata in the web server device of the test target, to the virtual webclients so that the virtual web clients executes the requests accordingto the scenario. As a result, the load simulator 22 a saves responsemessages that are received by the respective virtual web clients fromthe web server device and records a log of the responses.

The viewer 22 b displays a web page based on the page data in theresponse message and lists the log information of the responses.

The scenario generation module 22 c is a module for generating ascenario that is given to the virtual web clients by the load simulator22 a.

Next, the process executed by the CPU 20 d according to the scenariogeneration module 22 c in the embodiment will be described.

FIG. 2 is a flowchart showing the process that is executed by the CPU 20d according to the scenario generation module 22 c.

In the first step S101 after the start of process, the CPU 20 d executesa process to register the first provisional scenario. A provisionalscenario is generated based on request history of web pages displayed inorder by actually accessing the web server device 10 of the test targetbefore a web load test. Specifically, a provisional scenario is datathat defines some request messages and transmission order thereof. Somerequest messages contained in a provisional scenario include requestparameters that should be passed to the web server device 10 by a getmethod or a post method. In this Step S101, the CPU 20 d saves responsemessages that are received from the web server device 10 as responses tothe request messages.

The CPU 20 d that executes the process in step S101 corresponds to thefirst memory means mentioned above.

In the next step S102, the CPU 20 d registers the second provisionalscenario. The second provisional scenario registered at the step S102 isgenerated based on the history acquired when the same requestdestination is accessed in the same order as the first provisionalscenario. Therefore, the request destination of each of the requestmessages that constitute the second provisional scenario is the same asthat of the first provisional scenario.

The CPU 20 d that executes the process in step S102 corresponds to thesecond memory means mentioned above.

In the next step S103, the CPU 20 d writes the request parametersincluded in the request messages that constitute the first and secondprovisional scenarios to a comparison table. The request parameter inthe request message according to the get method is added to URL in therequest message. On the other hand, the request parameter in the requestmessage according to the post method is included in the data section ofthe request message.

FIG. 3 shows an example of the data structure of the comparison table31. As shown in FIG. 3, the comparison table 31 has records as many asthe request parameters in the scenario. Each record has the fields of an“order”, a “variable name”, a “value 1”, a “value 2” and a “source.” Thenumber that shows the order of the request message containing therequest parameter is recorded on the “order” field. A name attributevalue of the request parameter is recorded on the “variable name” field.A value attribute value of the request parameter of the firstprovisional scenario is recorded on the “value 1” field. A valueattribute value of the request parameter of the second provisionalscenario is recorded on the “value 2” field. The number showing theorder of the request message, which was a trigger to receive theresponse message containing the page data into which the name attributevalue and the value attribute value were embedded (referred to as asource request message, hereafter), in the first provisional scenario isrecorded on the “source” field.

When the comparison table 31 is generated in step S013, the “source”field is blank.

The CPU 20 d executes the first process loop L1 after generating thecomparison table 31 as shown in FIG. 3.

In the first process loop L1, the CPU 20 d executes steps S111 throughS114 in order for each record in the comparison table 31.

In step S111, the CPU 20 d judges whether the value in the “value 1”field and the value in the “value 2” field of the process target recordare identical or not.

The CPU 20 d that executes the process in step S111 corresponds to theextraction means mentioned above.

If the values in the “value 1” and “value 2” fields of the processtarget record are different to each other, the CPU 20 d branches theprocess to step S112.

In step S112, the CPU 20 d distinguishes the response messages obtainedin response to the transmission of the request messages whose orders areprior to the valeu in the “order” field of the process target recordfrom the other response messages recorded in step S101, and then, theCPU 20 d retrieves the response message that has the value (the valueattribute value) in the “value 1” field from the distinguished responsemessages.

The CPU 20 d that executes the process in step S112 corresponds to theretrieval means mentioned above.

In the next step S113, the CPU 20 d judges whether the response messagehaving the value (the value attribute value) in the “value 1” field ofthe process target record is retrieved or not.

When the response message having the value (the value attribute value)in the “value 1” field of the process target record is retrieved, theCPU 20 d branches the process from step S113 to step S114.

In step S114, the CPU 20 d stores the order of the request message,which was a trigger to receive the retrieved response message, in thefirst provisional scenario into the “source” field of the process targetrecord. Subsequently, the CPU 20 d generates rewriting-item informationthat correlates the value (the order number) in the “order” field, thevalue (the name attribute value) in the “variable name” field, and thevalue (the order number) in the “source” field of the process targetrecord.

The CPU 20 d that executes the process in step S114 corresponds to theinformation generation means mentioned above.

On the other hand, if the value in the “value 1” and the value in the“value 2” field of the process target record were judged to be identicalin step S111, or if the response message having the value (the valueattribute value) in the “value 1” field of the process target record wasnot retrieved in S113, the CPU 20 d finishes the process withoutgenerating the rewriting-item information for the process target record.

After finishing the processes from step S111 to S113 for all the recordin the comparison table 31, the CPU 20 d leaves the first process loopL1 and proceeds the process to step S121.

In step S121, the CPU 20 d registers a formal scenario by combining thefirst provisional scenario registered in step S101 and therewriting-item information generated in step 114. And after registering,the CPU 20 d finishes the process shown in FIG. 2.

The CPU 20 d that executes the process in step S121 corresponds to theoutput means mentioned above.

Next, operations and effects of the scenario generation module 22 c ofthe embodiment will be described.

When a user starts the scenario generation module 22 c, the scenariogeneration module 22 c requires to generate a provisional scenario (stepS101). The user repeats page transition operation. That is, the useraccesses the web page presented by the web server device 10, clicks alink in the web page and inputs predetermined information according tothe predetermined operating procedure. Then, when the user input thepredetermined registration instruction, the request messages during thepage transition operation are saved as the first provisional scenario,and the response massages are saved (step S101).

Subsequently, since the user is required to generate provisionalscenario again, he or she repeats the page transition operationaccording to the same operating procedure. Then, the request messagesduring the page transition operation are saved as the second provisionalscenario (step S102).

After two provisional scenarios are generated, the scenario generationmodule 22 c generates a formal scenario based on them (steps S111-S114,S121).

When generating a formal scenario, the request parameters of the requestmessage in the first provisional scenario is compared to the requestparameters of the request message in the second provisional scenario forthe same operation in the same order. As shown in FIG. 4, when the valueattribute value (pageId=4532) of the request parameter added to URL inthe first provisional scenario is different from the value attributevalue (pageId=1867) in the second provisional scenario, for example, itis judged that the request parameter should be rewritten appropriatelyevery time the virtual web client executes the scenario in the accessload test. Therefore, the module searches a response message having therequest parameter (pageId=4532) in the first provisional scenario fromthe response messages that are acquired before the request message istransmitted (step S112). As shown in FIG. 5, when the request parameter(pageID=4532) is found in the page data in the response message (stepS113; YES), the request parameter is determined as an item whose valueattribute value should be rewritten every time the scenario is executed.Then, rewriting-item information in response to the request parameter isgenerated and it is incorporated to the scenario (step S114).

When a virtual web client applies access load on the web server device10 using the scenario generated in this manner, the virtual web clientrepeats transmission of request messages and reception of responsemessages. When the virtual web client transmits the source requestmessages shown by the number within rewriting-item information requiredduring repeating transmission and reception, the virtual web clientretrieves the name attribute value in the rewriting-item informationfrom the page data of the response message thereof and reads the valueattribute value corresponding to the name attribute value. Then, whenthe virtual web client transmits the request message shown by the numberin the rewriting-item information, the virtual web client replaces thevalue attribute value corresponding to the name attribute value in therequest message with the value attribute value that is read in advancebefore transmitting the request message.

As described above, since the rewriting-item information is incorporatedin the scenario, access load can be applied normally even if a requestmessage in the scenario contains a request parameter that should bechanged appropriately whenever a virtual web client executes thescenario.

1. A scenario generation program used to generate a scenario given to aplurality of virtual web clients each of which applies access load to aweb server device of a test target, said program making a computerfunction as means comprising: a first memory means for storing somefirst request messages that are transmitted to a web server device inorder based on a predetermined operation and some response messages thatare received in order, into storage; a second memory means for storingsome second request messages transmitted to said web server device inorder based on the same operation as the above; an extraction means forextracting the differences between the request parameters in said firstand second request messages that are stored in said storage by saidfirst and second memory means in the same order of the same operation; aretrieval means for retrieving a response message whose page dataincludes the request parameters that are extracted by said extractionmeans as different parts from data in said storage; an informationgeneration means for generating rewriting-item information when saidretrieval means retrieves the response message, wherein saidrewriting-item information shows that the request parameters extractedby said extraction means as different parts are necessary to berewritten when applying access load; and an output means for outputtinga scenario that includes all the first request messages in the storageand the rewriting-item information that is generated by the informationgeneration means.
 2. The scenario generation program according to claim1, wherein said information generation means also generates sourceinformation to identify the first request message that is transmitted tosaid web server device in order to receive the response messageretrieved by said retrieval means, and said output means outputs allsaid first request messages, said rewriting-item information and saidsource information as said scenario.